CHARACTERIZATION OF VOLCANIC ASH FROM THE 2017 AGUNG ERUPTION
<p align="justify">Characterization of volcanic products is one of the important efforts to recognize the potential of <br /> <br /> <br /> <br /> resources and disasters. Volcanic product that is easy to identify and characterize is the widely <br /&...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/31045 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | <p align="justify">Characterization of volcanic products is one of the important efforts to recognize the potential of <br />
<br />
<br />
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resources and disasters. Volcanic product that is easy to identify and characterize is the widely <br />
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spread volcanic ash. Characterization of volcanic ash can provide important information about <br />
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the spread of volcanic ash from a mountain during eruptions, for statistical correlations in <br />
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exploratory interests, and the spread of fertile agricultural areas. Therefore, the characterization <br />
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of volcanic ash is an important thing to do. But there are not many research about volcanic ash <br />
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in Indonesia. This study focused on characterizing volcanic ash from the 2017 Mount Agung <br />
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2017 eruption, using rock magnetic methods, geochemical analysis, and petrography. Rock <br />
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magnetism method used is measurement of magnetic susceptibility value on two different <br />
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frequencies and hysteresis parameter of volcanic ash. Geochemical analysis was done using <br />
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XRF to determine composition of major elements, and petrography analysis to know mineral <br />
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content and texture of volcanic ash. The result of measurement using rock magnetism method <br />
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shows that volcanic ash of Gunung Agung has magnetic susceptibility values vary from 778- <br />
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1008 × 10􀬿􀬼𝑚􀬷/𝑘𝑔, the grain type is non-SP until the SP and non-SP grain mixtured, and the <br />
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magnetic domain is the PSD and SP. The magnetic parameters significantly different compared <br />
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to volcanic ash from 2014 Mount Kelud eruption, 2015 Sinabung eruption, and 2016 Soputan <br />
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eruption. The result of measurement using rock magnetism method is integrated with the result <br />
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geochemical analysis, and petrography used as the constituent parameters in the volcanic ash <br />
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character of Mount Agung eruption 2017.<p align="justify"> |
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